А-CORE module - Thermal Imaging Engine
The A-CORE Thermal Imaging Engine is the ultimate solution for equipping optical systems with cutting-edge thermal imaging technology. Delivering high performance and advanced sensitivity, it detects even the slightest thermal variations in challenging environments such as complete darkness or adverse weather. Its compact design makes it ideal for integration into diverse platforms, including surveillance systems, UAVs, and advanced military equipment. This reliable module empowers devices with enhanced detection, tracking, and tactical mission support around the clock.
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А-CORE Module - Thermal Imaging Engine |
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DESCRIPTION |
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- A-Core is the latest generation thermal imaging engine, based on cutting-edge hardware solutions and dedicated video processing algorithms. |
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- OEM partners can benefit from superior image quality and robustness, but now in ultra compact design, well proven in harsh environmental conditions and suitable for integration in small portable devices or compact multisensory solutions. |
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- A-Core can be obtained also in a kit with objective lens series OptIR for optimal system performance. Available lens options are: 19mm, 25mm, 35mm objective's focal length. |
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- Designed as a high-performance "core" or engine, it serves as the internal imaging component for various thermal observation and sighting devices. It is used both in Nite hog’s proprietary products and provided to OEM partners for integration into their own security and monitoring systems. |
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Key Details and Specifications |
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Imaging Technology: |
It uses a high-sensitivity a-Si (Amorphous Silicon) microbolometer sensor, typically with a 12-micron pixel pitch. |
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Video Processing: |
The module features dedicated video processing algorithms and "auto-contrasting scenes" to improve image clarity in various outdoor conditions. |
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Applications: |
It is used in compact handheld thermal spotters, rifle sights, and surveillance systems. |
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Design: |
It is known for its "SWaP" (Size, Weight, and Power) optimization-being extremely small, lightweight, and efficient for its performance level. |
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System for Early Fire Detection |
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DESCRIPTION |
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- are a colossal and destructive disaster. They can cause serious and often irreversible damage to forest ecosystems, reduce the number of biological species, disrupt the balance of nature, and change the Earth's climate. During the dry and warm months of the summer, when hot and strong winds are blowing, the threat of fires increases dramatically. A newly emerged fire, either due to human negligence or high temperatures, can grow at 2 km/h. |
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- The only effective method for minimizing the damage is their initial detection and a rapid response to suppress them. solution for early fire detection, can assist government authorities in the early detection of wildfires and enable them to control their spread. |
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Wildfire Detection |
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- In those extreme conditions, a small fire can grow into a giant disaster and a real catastrophe if not controlled within half an hour to one hour. Chronicles indicate that after the specified time, it is too late, and the efforts made are enormous. The world economy has endured incessant heavy blows. Human lives are lost. The only effective method for minimizing the damage from wildfires is their initial detection and a rapid response to suppress them. |
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- Based on multiple real-world tests, we have been able to optimize the IR heat detection algorithms with which we have achieved extremely acceptable levels of false alarms. |
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Wildfire Detection Ranges: |
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Fire Size |
Detection Range* |
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1m x 1m |
0.8 km |
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2m x 2m |
1.6 km |
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3m x 3m |
2.3 km |
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6m x 6m |
4.7 km |
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24m x 24m |
19 km |
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40m x 40m |
40 km |
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* Distances are calculated based on geometrical values and do not take into account atmospheric conditions. The detection range is strongly affected by meteorological, atmospheric, and geographical conditions! |
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